# Copyright (C) 2022 The Qt Company Ltd.
# SPDX-License-Identifier: LicenseRef-Qt-Commercial OR BSD-3-Clause
from __future__ import annotations

import copy, os
from PySide6.QtSql import QSqlRelationalDelegate
from PySide6.QtWidgets import (QItemDelegate, QSpinBox, QStyledItemDelegate,
    QStyle, QStyleOptionViewItem)
from PySide6.QtGui import QMouseEvent, QPixmap, QPalette, QImage
from PySide6.QtCore import QEvent, QSize, Qt, QUrl

class BookDelegate(QSqlRelationalDelegate):
    """Books delegate to rate the books"""

    def __init__(self, star_png, parent=None):
        QSqlRelationalDelegate.__init__(self, parent)
        self.star = QPixmap(":/images/star.png")

    def paint(self, painter, option, index):
        """ Paint the items in the table.

            If the item referred to by <index> is a StarRating, we
            handle the painting ourselves. For the other items, we
            let the base class handle the painting as usual.

            In a polished application, we'd use a better check than
            the column number to find out if we needed to paint the
            stars, but it works for the purposes of this example.
        """
        if index.column() != 5:
            # Since we draw the grid ourselves:
            opt = copy.copy(option)
            opt.rect = option.rect.adjusted(0, 0, -1, -1)
            QSqlRelationalDelegate.paint(self, painter, opt, index)
        else:
            model = index.model()
            if option.state & QStyle.State_Enabled:
                if option.state & QStyle.State_Active:
                    color_group = QPalette.Normal
                else:
                    color_group = QPalette.Inactive
            else:
                color_group = QPalette.Disabled

            if option.state & QStyle.State_Selected:
                painter.fillRect(option.rect,
                    option.palette.color(color_group, QPalette.Highlight))
            rating = model.data(index, Qt.DisplayRole)
            width = self.star.width()
            height = self.star.height()
            x = option.rect.x()
            y = option.rect.y() + (option.rect.height() / 2) - (height / 2)
            for i in range(rating):
                painter.drawPixmap(x, y, self.star)
                x += width

            # Since we draw the grid ourselves:
            self.drawFocus(painter, option, option.rect.adjusted(0, 0, -1, -1))

        pen = painter.pen()
        painter.setPen(option.palette.color(QPalette.Mid))
        painter.drawLine(option.rect.bottomLeft(), option.rect.bottomRight())
        painter.drawLine(option.rect.topRight(), option.rect.bottomRight())
        painter.setPen(pen)

    def sizeHint(self, option, index):
        """ Returns the size needed to display the item in a QSize object. """
        if index.column() == 5:
            size_hint = QSize(5 * self.star.width(), self.star.height()) + QSize(1, 1)
            return size_hint
        # Since we draw the grid ourselves:
        return QSqlRelationalDelegate.sizeHint(self, option, index) + QSize(1, 1)

    def editorEvent(self, event, model, option, index):
        if index.column() != 5:
            return False

        if event.type() == QEvent.MouseButtonPress:
            mouse_pos = event.pos()
            new_stars = int(0.7 + (mouse_pos.x() - option.rect.x()) / self.star.width())
            stars = max(0, min(new_stars, 5))
            model.setData(index, stars)
            # So that the selection can change
            return False

        return True

    def createEditor(self, parent, option, index):
        if index.column() != 4:
            return QSqlRelationalDelegate.createEditor(self, parent, option, index)

        # For editing the year, return a spinbox with a range from -1000 to 2100.
        spinbox = QSpinBox(parent)
        spinbox.setFrame(False)
        spinbox.setMaximum(2100)
        spinbox.setMinimum(-1000)
        return spinbox
